RU80938U1 - DEVICE FOR MEASURING THICKNESS OF PROTECTIVE COATINGS - Google Patents

Abstract

The device relates to measuring equipment, namely to means of non-destructive testing and can find application in various industries when measuring protective coatings on a ferromagnetic base. The objective of the technical solution is to increase the accuracy of measurement. This object is achieved by the fact that in the device for measuring the thickness of protective coatings containing a cylindrical body located in the housing near one of the ends of the permanent magnet, a tension spring installed in the housing along its axis and fastened at one end to the magnet, a slider fastened to the second end of the spring a clutch enclosing the housing, connected to the slider and mounted to rotate around the axis of the housing and a guide sleeve fixed in the housing, inside of which the magnet is placed, an additional An integral guide sleeve with a shoulder with elastic protective shields fixed on it from the inside and outside, the cavity between which is connected to the air suction device, and uniformly located stops are made on the end surface of the shoulder. This ensures the stability of the position of the device during the measurement process, regardless of the configuration of the surface of the part on which it is performed. In addition, the clamping device allows you to realize a metered clamping of the device to the surface of the coating, [1 npf, 3 ill.]

Description

The technical solution relates to measuring equipment, namely to means of non-destructive testing and can find application in various industries when measuring protective coatings on a ferromagnetic base.

A known device for measuring the thickness of protective coatings, comprising a housing, a permanent magnet placed therein, a tension screw spring and a scale [Heptner-Mnller, Technick, 22, No. 9, 1967].

The disadvantage of this device is its low productivity and a large error when measuring on inclined and vertical surfaces.

Closest to the technical solution in technical essence is a device for measuring the thickness of protective coatings comprising a cylindrical body located in the body near one of the ends of a permanent magnet, a tension spring installed in the body along its axis and fastened at one end to the magnet, a slider fastened to the second the end of the spring, covering the body of the coupling associated with the slider and mounted to rotate around the axis of the housing, a guide sleeve mounted in the housing, inside of which is placed n magnet [A.S. No. 1352187 USSR, IPC ⁷ G01B 7/06. A device for measuring the thickness of protective coatings. / V.I. Lymar (USSR) - No. 4632022; Declared January 4, 89; Publ. 03/07/91, Bull. No. 9].

A disadvantage of the known device is the low accuracy of the measurement due to the uncertainty of the position of the permanent magnet relative to the controlled surface.

The objective of the technical solution is to increase the accuracy of measurement.

The problem is achieved in that in the device for measuring the thickness of the protective coatings containing a cylindrical body located in the housing near one of the ends of the permanent magnet,

a tension spring installed in the housing along its axis and fastened at one end with a magnet, a slider fastened to the second end of the spring, enclosing a housing coupled to a slider and mounted to rotate around the axis of the housing and a guide sleeve mounted in the housing, inside of which is placed magnet, in the lower part of the casing there is an additional guide sleeve with a shoulder with elastic protective shields fixed on it from the inside and outside, the cavity between which is connected to the pneumatic a suction device, and on the end surface of the shoulder made evenly spaced stops.

This ensures the stability of the position of the device during the measurement process, regardless of the configuration of the surface of the part on which it is performed. In addition, the clamping device allows you to realize a metered clamping of the device to the surface of the coating.

Figure 1 shows a device for measuring the thickness of protective coatings, figure 2 shows a General view of the end surface of an additional guide sleeve with a clamping device, and figure 3 shows the location of the elements of the device during the measurement.

The device contains a cylindrical body 1, inside of which a slider 2 is placed, connected by a thread to the rod 3, a spring-loaded spring 4, a magnet 5 (or an electromagnet) installed in the guide sleeve 6. The slide 2 with the rod 3 are connected with the possibility of adjusting the distance between them. The housing 1 covers the coupling 7 with the possibility of rotation and is made with a screw slot 8, and also through the longitudinal slot 9 in the housing 1 a pin 10 is inserted, fixed in the slider 2. The axis of the head of the pin 10 serves as a pointer. The plug 11 is made of the clamp clutch 7 in the axial direction. Clutches 12 and 13 serve for the convenience of holding the device in hands. An additional guide sleeve 14 is inserted in the lower part of the housing 1, the end surface of which is made in the form of equally spaced stops 15 equally spaced within

the end surface 16 of the shoulder 17 of the additional guide sleeve 14. On the outer surface of the shoulder 17 is fixed an elastic protective screen 18 and on the inner surface of the shoulder 17 an elastic protective screen 19. The cavity 20 between the protective screens 18 and 19 is connected to the air suction device 21. The stops 15 provide uniform contact the end surface of the guide sleeve 14 with a controlled surface at three points.

The device operates as follows. The device is installed perpendicular to the measured surface while holding the device body 1 by the clutch 12 and 13. Then include a pneumatic suction device 21, which creates a vacuum in the cavity 20 between the protective elastic screens 18 and 19, mounted on the shoulder 17 of the additional guide sleeve 14. Due to atmospheric pressure clamp stops 15 located on the end surface 16 of the shoulder 17 at three points to the controlled surface. By rotating the clutch 7 in the opposite direction, the spring 4 is pulled apart, tearing the magnet 5 away from the controlled surface, which, tearing away, slides inside the guide sleeve 6 and the additional guide sleeve 14 and hits the end of the rod 3 fixed on the slider 2. At this moment, the rotation of the clutch 7. stops the measurement is read along the axis of the head of the pin 10 passing through the screw slot 8 and the longitudinal slot 9 in the housing, on a scale located on the housing 1.

This ensures the stability of the position of the device during the measurement process, regardless of the configuration of the surface of the part on which the thickness measurement is performed. Moreover, compliance with the basic condition is guaranteed: ensuring the perpendicularity of the location of the magnet to the measured surface, which ensures improved measurement accuracy.

In addition, the clamping device allows you to ensure the clamping of the base stops of the device to a controlled surface, taking into account the fragility of the coating without allowing it to chip when installing the device.

Claims (1)

A device for measuring the thickness of protective coatings, comprising a cylindrical housing located in the housing near one of the ends of the permanent magnet, a tensile spring mounted in the housing along its axis and fastened at one end with a permanent magnet, a slider fastened to the second end of the spring, covering the sleeve housing, connected with the slider and mounted with the possibility of rotation around the axis of the housing, a guide sleeve mounted in the housing, inside of which is placed a magnet, characterized in that in the lower part of the housing is installed An additional guide sleeve with a shoulder with elastic protective shields fixed on it from the inside and outside is provided, the cavity between which is connected to the pneumatic suction device and uniformly arranged stops are made on the end surface of the shoulder.